Publication Details
One-Electron-Transfer Reactions of Polychlorinated Ethylenes: Concerted and Stepwise Cleavages.Citation
Bylaska EJ, M Dupuis, and PG Tratnyek.2008."One-Electron-Transfer Reactions of Polychlorinated Ethylenes: Concerted and Stepwise Cleavages."Journal of Physical Chemistry A 112(16):3712-3721.
Abstract
Reaction barriers were calculated by using ab initio electronic structure methods for the reductive dechlorination of the polychlorinated ethylenes: C2CL4, C2Cl4, C2HCl3, trans-1,2-C2H2Cl2, cis-1,2-C2H2Cl2, 1,1-C2H2Cl2, and C2HCl3. Concerted and stepwise cleavages of R-Cl bonds were considered. Stepwise cleavages yielded lower activation barriers than concerted cleavages for the reduction of C2Cl4, C2HCl3, and trans-1,2-C2H2Cl2 via strong reducing agents. However, for typical ranges of reducing strength concerted cleavages were found to be favored. Both gas-phase and aqueous-phase calculations predicted C2Cl4 to have the lowest reaction barrier. Additionally, the reduction of C2HCl3 was predicted to have a significant amount of selectivity of cis-1,2-C2HCl2 over the corresponding reactions leading to the trans-1,2-C2HCl2, and 1,1-C2HCl2 radicals. These results illustrate how ab initio electronic structure methods, by providing experimentally inaccessible thermodynamics properties and activation energies, are able to sort out possible reactions mechanisms of reactions that have broad relevance in environmental chemistry.
